Although Trachemys scripta elegans is an exotic species popular as a pet in Brazil, studies on reproductive biology and capacity are non-existent in the Brazilian Cerrado. This study analyzed ovarian and oviduct characteristics and the egg production capacity of T. scripta elegans grown in this biome. The findings will associate with the size of the specimens and the sexual maturity, aiming at comparisons with native and exotic populations, as well as interspecific and contributing to the understanding of its impact on the invaded ecosystems and the establishment of eradication programs. Thus, 39 females had evaluated the body biometry and the morphology and morphometry of the ovaries and oviducts. G2 (N=20): with Class I (>5-10mm) follicles, with Class I and Class II (>10-fold) follicles, 25mm) and G3 (N=9) with Class I, Class II and Class III (>25mm) follicles. Analysis of variance, Scott-Knott’s test, and Pearson’s correlation analysis showed that there was no significant difference between the groups in body biometry; in the mean gonadosomatic index and gonadal morphometry, only the width of the oviducts in the right antimer and the mass and width in the left antimer were higher in G3, the only one that presented eggs. There was positive and harmonic development between body mass, carapace, and plastron, and gonadal growth occurred concomitantly with body growth, indicating a higher reproductive potential and a positive relationship between the size of the litter and the female litter. The gonadosomatic index proved to be an excellent reproductive indicator, and the ovarian evaluation was a better indicator of sexual maturity than the maximum carapace length. Ovaries were irregular structures, without delimitation between the cortical and medullary regions and filled with vitelogenic follicles of different diameters, atresic follicles, and corpora lutea, which reflected the ovarian complexity of the species and the presence of follicular hierarchy. In the scarce stroma, two germinative beds were observed per ovary and the presence of gaps very close to the follicles and associated with the blood vessels. Analysis of gonadal tissue revealed three types of oocytes according to cytoplasmic characteristics: homogeneous, vesicular or vesicular in the cortex with apparent granules. Oviducts were functional and separated, joining only in the final portion to form the cloaca and subdivided into infundibulum, tuba, isthmus, uterus, and vagina. The structure of the uterine tube was composed of serosa, muscular and mucous, which was full of glands. The presence of eggs in the oviducts indicated that the specimens can reproduce in the Brazilian Cerrado. This study provides necessary and relevant information on the reproductive biology and capacity of T. scripta elegans in the Brazilian Cerrado and can contribute to the understanding of its impact on the invaded ecosystems and the establishment of eradication programs. The extraction of females with capacity can reduce the annual reproductive yield of the species and decrease its effect on local biodiversity.

Trachemys scripta elegans is an American underwater chelonian illegally marketed in Brazilian pet shops. When abandoned in nature, it compromises native species, threatening local biodiversity. However, little is known about the body development and structure of its reproductive tract. The objective of the present study was to investigate the morphology and biometry of testis, epididymis and penis, as well as the biometry of the body and secondary sexual characters in this species. Twenty-seven adult males were used aiming to contribute to preservation actions in captivity, population control, and scientific research, as well as to interspecific comparisons. Sex identification by the third claw length was effective, and the specimens presented harmonious and positive body development between mass, carapace, plastron, and height, with unimodal tendency and higher frequency of maximum carapace length at 15cm. The testes and epididymides presented biometric similarity between the antimeres and anatomical and histological structure similar to that of other species of chelonians and mammals, except for the type of epithelium. The findings suggest that there is conserved morphology between slider turtles and homology in relation to mammals. Histological similarity to the reproductive organs of other amniotes, including humans, may give rise to scientific and comparative studies, essential for the establishment of conservation strategies in reptiles.

This study aimed to evaluate the body biometry and hematological profile of Trachemys scripta elegans (N=28) and Trachemys dorbignyi (N=22) reared in captivity in the Brazilian submedium northeastern semi-arid region in the Valley of the São Francisco river. It aimed to establish basic health blood values and generate useful data on the comparative physiology of Testudines. After 120-day adaptation and 24-hour fasting, 2.5mL of blood were collected from the dorsal occipital sinus and deposited into a tube with sodium heparin for evaluation, following, of hematological levels. The red blood cell count (RBC) and GLC was conducted in a Neubauer chamber, the hemoglobin level (HGB) was supplied by the cyanmethemoglobin method and the hematocrit (HCT) was obtained by the microhematocrit technique. Based on the RBC, the hematimetric were mathematically established. Body biometry were also evaluated: a) body mass (BM, g); b) maximum dimensions of the carapace [length (MLC, cm) and width (MWC, cm)]; c) maximum dimensions of plastron [length (MLP, cm) and width (MWP, cm)]; d) total length of tail (TLT, cm); e) linear length from the base of the tail to the cloacal orifice (LPrC, cm); f) linear length from the cloacal orifice to the extremity of the tail (LPoC, cm). T. scripta elegans showed higher values (P<0.05) for biometrics, while TLT and LPrC were higher (P<0.05) in T. dorbignyi. The hematological values did not differ (P>0.05) among species. The results show that most of the variation found between T. scripta elegans and T. dorbignyi is explained by the biometric variables and that some hematologic correlations characterize interspecies differences. It was conclude that the results shed light on benchmarks for these species kept in captivity in the northeastern semi-arid region and serve as a model for intra and interspecies comparative physiology.

ABSTRACT.- Nunes A.K.R., Gouveia B.B.., Matos M.H.T., Pires I.C., Franzo V.S., Faria M.D. & Gradela A. 2013. [Morphological and functional analysis of spermatogenesis in guinea pigs (Cavia porcellus) from pre-puberty to post-puberty.] Análise morfológica e funcional do processo espermatogênico em cobaios (Cavia porcellus) da pré-puberdade até a pós-puberdade. Pesquisa Veterinária Brasileira 33(Supl.1):1-7. Colegiado de Medicina Veterinária, Fundação Universidade Federal do Vale do São Francisco, Rodovia 407 Km 12, Lote 543, Projeto Nilo Coelho C1, Petrolina, PE 56300-000, Brazil. E-mail: agradela@hotmail.com
This study describes the morphological and functional analysis of spermatogenesis in guinea pigs (Cavia porcellus) with five (W5), six (W6), nine (W9) and eleven (W11) weeks of age (n=5/group). The aspects analyzed include counts of cell populations present in stage 1 of seminiferous epithelium cycle (SEC), efficiency of spermatogonial mitosis (EMi), meiotic production (EMe), overall yield of spermatogenesis (EOS), Sertoli cell index (SCI) and carrying capacity of Sertoli cells (CCSC). The results showed that the average number of spermatogonia type A, primary spermatocytes in pré-leptóteno/leptóteno, primary spermatocytes in pachytene, total spermatogenic cells and Sertoli cells showed numerical variations according to age; however they were statistically not detected, while round spermatids increased significantly at puberty and then stabilized. The spermatogenic production of 5 to 11-week-old guinea pigs did not reach the stabilization point, and the RMi, RME, EOS, SCI and CCSC showed significant number variation as a function of age. The results demonstrate that Cavia porcellus in post-pubertal stage 2 are an advantageous experimental model to address studies on the processes of homologous recognition, alignment, and synapsis during meiotic prophase; intrinsic yield of spermatogenesis in guinea pigs is similar to Wistar rats, paca and agouti (Dasyprocta sp.) and lower than in cavies, whereas the functional efficiency of Sertoli cells is higher than in agouti and Wistar rats, and lower than in pacas, spiny rat and collared peccaries. We conclude that in guinea pigs the spermatogenesis is fully established at 6 weeks of age, indicating the pubertal stage of sexual development, and until week 11 they do not reach the maximum daily sperm production and therefore sexual maturity.

ABSTRACT.- Gradela A., Nunes A.K.R., Matos M.H.T., Franzo V.S., Faria M.D., Moreira M.B. & Santos J.M. 2013. [Morphologic and morphometric description of the guinea pigs vesicular gland during postnatal development.] Descrição morfológica e morfométrica da glândula vesicular de cobaias durante o desenvolvimento pós-natal. Pesquisa Veterinária Brasileira 33(7):942-948. Colegiado de Medicina Veterinária, Fundação Universidade Federal do Vale do São Francisco, Rodov. 407 Km 12, Lote 543, Projeto Nilo Coelho C1, Petrolina, PE 56300-000, Brazil. E-mail: agradela@hotmail.com
Vesicular glands are essential for reproduction since their secretions affect sperm function. Guinea pigs (Cavia porcellus) are an excellent experimental model for studying vesicular glands, but no morphologic and morphometric data during its development are available. In the present study, the morphology (projections of the folds (PF) and epithelial tissue high (EH) of the mucosa) and the morphometry (mass (GM), volume (GV), length (GC), width of the portions cranial (CRW), medium (MW) and caudal (CAW)) of the vesicular glands were determined at 1, 3, 5, 8, and 11-weeks of age in male guinea pigs (n = 5/age group). In addition, body mass (BM), body length (BL) and height (BH) and organo-somatic index (OSI) were also determined and the simple correlation coefficient (r) was established between the variables. The glands were restricted to the pelvic cavity, and had its interior filled with a semi-solid mass and, after S8, they occupied also the abdominal cavity and the contents were increased significantly. The mucous membrane presented variable folding and simple columnar epithelium. BM, BL and BH increased continuously with age. GM, GV, GC and CAW did not change from 1 to 5-weeks of age, but increased at 8-weeks of age; GM, GV and LCA also increased at 11-weeks of age. OSI and PF increased at 8 and 11-weeks of age and EH at 5, 8 and 11-weeks of age. There was significant (r) between age, body and glandular parameters; OSI and GM at 8 and 11-weeks of age; age and PF, age and EH and between PF and EH. In conclusion, the guinea pigs vesicular glands followed morphology observed in rats and hamsters, but differed in some aspects from others histricomorfs, can be used as experimental model and its morphological and morphometric development can be divided into three phases: 1 to 5-weeks of age, when they are discrete; 6 to 8-weeks of age when they are generally sharp and >8-weeks of age, when there is an intense increase of the secretory capacity.